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In UC Berkley Video lectures on OS by John Kubiatowicz (Prof. Kuby) available on web, he mentioned that TLB hit doesn't mean that corresponding page is in main memory. Page fault can still occur.
Technically TLBs are cache for page table entry and since all page table entries don't have their corresponding page available in main memory. Same can be true for TLBs. A TLB hit may lead to page fault.

But according to algorithms given in text books I am unable to find such a case. On a TLB miss kernel refer to page tables and update the TLB cache for appropriate address translation. Next TLB hit can't lead to page fault. When kernel swap out the page, it updates the appropriate bits for that page table entry and invalidate the corresponding TLB, so there can't be a TLB hit next time until page is loaded in main memory.

So can someone stand for correctness of Prof kuby's claim and point out a case when instead of TLB hit (the translated physical address for corresponding virtual address in found in TLB), a page fault can occur?

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Andy Glew's CompArch wiki has a page on caching invalid entries in a TLB which might be of interest. –  Paul A. Clayton Nov 9 '13 at 21:15
Since the CompArch wiki is currently not working, I have posted a copy of the CompArch wiki entry Caching Invalid Entries. (I have also posted some others.) –  Paul A. Clayton Nov 25 '14 at 20:21

2 Answers 2

up vote 5 down vote accepted

One example is if the memory access is different from the allowed one.

e.g. you want to write to memory that's write protected. A TLB exists, it's a hit and the address is translated. But on access you get a trap, as you're trying to write to memory that's read-only

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+1 another similar example would be a private mapping, hitting a copy-on-write page for the first time. This will not only generate a trap, but will also cause the kernel to create a totally new page. The page could be in the TLB if you had only been reading from it previously. It's interesting what the kernel would do in that case, though... keep both TLB entries, or just the new one, or ...? I guess it's probably the latter since TLB is rather short-lived, but I wouldn't know for sure. –  Damon Jun 18 '11 at 22:13
+1 That seems perfectly valid case. –  Terminal Jun 18 '11 at 22:59
Though your answer gives some new perspective to think but still trap is not a page fault. The kernel will deny access rather than reloading that page in memory. –  Terminal Jun 19 '11 at 7:28
@Damon: Two process can have same virtual address for different pages-frames in memory.Kernel must have some tags for it ( I don't know the actual mechanism) but still kernel differentiate between 2 same virtual address of 2 different process. I think same case apply to copy-on-write page which is the case for fork() system call. After making the new copy of page, though the two pages have same virtual address, kernel can still keep both entries because they belong to different processes after fork. –  Terminal Jun 19 '11 at 7:34
After going through rwong's link, I take my above comment back. Your answer is genuine. –  Terminal Jun 19 '11 at 7:48

patterson says:"cannot have a translation in TLB if page is not present in memory" [computer organization and design,4th ed revised, page 507]

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Note that TLB has two meanings: (1) As a general logic component in all memory-based cache systems, (2) Specifically as an architectural component in the virtual address to physical address translation step. Your statement above only applies to (1), which is that a memory access that has failed could not have resulted in anything being added to the cache. However, when TLB refers to the MMU (memory management unit) which is under full control of OS, the translation table is completely specified by the OS, including entries that indicate "issue software trap if this virtual address is hit". –  rwong Jan 9 at 20:47
Or else, your quoted statement simply don't correspond to the modern CPU architecture anymore. –  rwong Jan 9 at 20:48
There is a third possibility: a cache system designed to cache the frequently-used entries from the MMU translation table. In this case, your quoted author is right (as a matter of opinion) in saying that there is little point in caching an entry that maps to an illegal access, but in modern CPUs and OSes, the use of virtual paging system (pretending to have larger virtual memory space than the physical memory space) is so rampant that it makes perfect sense to cache these entries as well, because you will certainly hit them a lot of times. –  rwong Jan 9 at 20:51

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